Recombinant HIV-1 vaccine candidates based on replication-defective flavivirus vector.

Multiple approaches utilizing viral and DNA vectors have shown promise in the development of an effective vaccine against HIV. In this study, an alternative replication-defective flavivirus vector, RepliVax (RV), was evaluated for the delivery of HIV-1 immunogens. Recombinant RV-HIV viruses were engineered to stably express clade C virus Gag and Env (gp120TM) proteins and propagated in Vero helper cells. RV-based vectors enabled efficient expression and correct maturation of Gag and gp120TM proteins, were apathogenic in a sensitive suckling mouse neurovirulence test, and were similar in immunogenicity to recombinant poxvirus NYVAC-HIV vectors in homologous or heterologous prime-boost combinations in mice. In a pilot NHP study, immunogenicity of RV-HIV viruses used as a prime or boost for DNA or NYVAC candidates was compared to a DNA prime/NYVAC boost benchmark scheme when administered together with adjuvanted gp120 protein. Similar neutralizing antibody titers, binding IgG titers measured against a broad panel of Env and Gag antigens, and ADCC responses were observed in the groups throughout the course of the study, and T cell responses were elicited. The entire data demonstrate that RV vectors have the potential as novel HIV-1 vaccine components for use in combination with other promising candidates to develop new effective vaccination strategies.

Fire carbon emissions over maritime southeast Asia in 2015 largest since 1997.

In September and October 2015 widespread forest and peatland fires burned over large parts of maritime southeast Asia, most notably Indonesia, releasing large amounts of terrestrially-stored carbon into the atmosphere, primarily in the form of CO2, CO and CH4. With a mean emission rate of 11.3 Tg CO2 per day during Sept-Oct 2015, emissions from these fires exceeded the fossil fuel CO2 release rate of the European Union (EU28) (8.9 Tg CO2 per day). Although seasonal fires are a frequent occurrence in the human modified landscapes found in Indonesia, the extent of the 2015 fires was greatly inflated by an extended drought period associated with a strong El Niño. We estimate carbon emissions from the 2015 fires to be the largest seen in maritime southeast Asia since those associated with the record breaking El Niño of 1997. Compared to that event, a much better constrained regional total carbon emission estimate can be made for the 2015 fires through the use of present-day satellite observations of the fire's radiative power output and atmospheric CO concentrations, processed using the modelling and assimilation framework of the Copernicus Atmosphere Monitoring Service (CAMS) and combined with unique in situ smoke measurements made on Kalimantan.

Plasmid DNA encoding the respiratory syncytial virus G protein is a promising vaccine candidate.

Respiratory syncytial virus (RSV) remains a major cause of severe respiratory diseases in infants, young children, and the elderly. However, development of a RSV vaccine has been hampered by the outcome of the infant trials in the 1960s with a formalin-inactivated RSV preparation. Enhanced lung disease was induced by the vaccination post-RSV exposure. Previous studies in mice primed with RSV G protein either formulated in adjuvants or delivered by recombinant vaccinia viruses have indicated that enhanced lung pathology resulted from a Th2-type host immune response against the viral G protein. However, in the present report, we have demonstrated that vaccination with plasmid vectors encoding either a full-length or a secreted G protein (DNA-G) clearly elicited balanced systemic and pulmonary Th1/Th2 cytokine responses in mice and did not induce an atypical pulmonary inflammatory reaction post-RSV challenge in cotton rats. DNA-G immunization also induced marked virus neutralizing antibody responses and protection against RSV infection of the lower respiratory tract of both mice and cotton rats. So far, only genetic immunization has been able to induce a balanced Th1/Th2 response with the RSV G protein, reminiscent of that induced by live RSV. Therefore, DNA-G is a promising immunogen for inclusion in a nucleic acid RSV vaccine.

Protection against respiratory syncytial virus infection by DNA immunization.

Respiratory syncytial virus (RSV) remains a major cause of morbidity and mortality in infants and the elderly and is a continuing challenge for vaccine development. A murine T helper cell (Th) type 2 response associates with enhanced lung pathology, which has been observed in past infant trials using formalin-inactivated RSV vaccine. In this study, we have engineered an optimized plasmid DNA vector expressing the RSV fusion (F) protein (DNA-F). DNA-F was as effective as live RSV in mice at inducing neutralizing antibody and cytotoxic T lymphocyte responses, protection against infection, and high mRNA expression of lung interferon gamma after viral challenge. Furthermore, a DNA-F boost could switch a preestablished anti-RSV Th2 response towards a Th1 response. Critical elements for the optimization of the plasmid constructs included expression of a secretory form of the F protein and the presence of the rabbit beta-globin intron II sequence upstream of the F-encoding sequence. In addition, anti-F systemic immune response profile could be modulated by the route of DNA-F delivery: intramuscular immunization resulted in balanced responses, whereas intradermal immunization resulted in a Th2 type of response. Thus, DNA-F immunization may provide a novel and promising RSV vaccination strategy.

Baculovirus expression of the respiratory syncytial virus fusion protein using Trichoplusia ni insect cells.

Respiratory syncytial virus (RSV) is a major viral pathogen responsible for severe respiratory tract infections in infants, young children, and the elderly. The RSV fusion (F) protein is highly conserved among RSV subgroups A and B and is the major protective immunogen. A genetically-engineered version of the RSV F protein was produced in insect cells using the baculovirus expression system. To express a secreted form of this protein, the transmembrane domain was eliminated by removing the region of the gene encoding 48 amino acids at the C-terminus. Production of the truncated RSV F protein (RSV-Fs) was compared in two different insect cell lines, Spodoptera frugiperda (Sf9) and Trichoplusia ni (High Five). The yield of RSV-Fs secreted from High Five insect cells was over 7-fold higher than that from Sf9 insect cells. Processing of the RSV-Fs protein was also different in the two insect cell lines. N-terminal sequencing demonstrated that while most of the RSV-Fs protein secreted by High Five cells was correctly processed at the F2-F1 proteolytic cleavage site, most of the RSV-Fs protein secreted by Sf9 cells was unprocessed or incorrectly processed. Antigenicity of the major RSV F neutralization epitopes was maintained in the RSV-Fs protein secreted from High Five cells. The RSV-specific neutralizing antibody titres in the sera of cotton rats immunized with the RSV-Fs protein were equivalent to those in the sera of animals intranasally inoculated with live RSV. Animals immunized with either live RSV or the immunoaffinity purified RSV-Fs protein from High Five cells were completely protected against live virus challenge.

Molecular characterization of the Prospect Hill virus M RNA segment: a comparison with the M RNA segments of other hantaviruses.

Complementary DNA representing the genomic M RNA segment of the Prospect Hill (PH) Hantavirus was cloned and its nucleotide sequence determined. The PH virus M RNA segment is 3707 nucleotides in length and has a long open reading frame in the viral complementary-sense RNA with a coding capacity of 1142 amino acids. The predicted gene product of the PH virus M segment was compared with the corresponding gene products of Hantaan virus strain 76-118 (Hantaan), Sapporo rat virus strain SR-11 (SR) and Puumala virus strain Hällnäs B1 (Hällnäs). The amino acid sequence identities between the G1 and G2 proteins of PH virus and Hällnäs virus are respectively 74% and 79%. In contrast, the amino acid sequence similarities between the G1 proteins of PH virus and SR virus or Hantaan virus are only 50%. However the G2 proteins of SR and Hantaan viruses were more closely related to the G2 protein of PH virus with amino acid sequence similarities of approximately 62%. The G1 proteins of all four viruses had three potential asparagine-linked glycosylation sites conserved and there was one conserved site in the G2 proteins. Hydrophilicity plots of the four virus glycoproteins were very similar. The region of greatest hydrophilicity was conserved in the Hällnäs, SR and Hantaan viruses, and was located near the C terminus of the G1 protein, whereas the region of greatest hydrophilicity in the PH virus glycoprotein precursor is located closer to the N terminus of the G1 protein. Our data demonstrate that despite differences in the serotypic profiles and virulence of PH and Hällnäs viruses, their G1 and G2 proteins are closely related. We conclude that PH and Hällnäs viruses may have evolved along a separate evolutionary pathway in the Hantavirus genus from that of SR and Hantaan viruses.

The marketing decade: a desktop view.

The authors challenge health care marketers to put into perspective the brief history and development of the health care marketing function and process. They advocate closing the gap between strategy development, operations management, and strategy implementation, and suggest that "strategic management" may be the way to organize for marketing. Marketers' roles and readiness for strategic management are discussed.

Nucleotide sequence analysis of the S genomic segment of Prospect Hill virus: comparison with the prototype Hantavirus.

The genomic S RNA segment of Prospect Hill virus (PHV), a member of the Hantavirus genus, was molecularly cloned and the nucleotide sequence of the cDNA determined. The PHV S RNA segment is 1675 nucleotides long. A long open reading frame was identified in the viral complementary-sense RNA that could encode a 433 amino acid (49K) nucleocapsid (N) protein. Comparison with the sequence of the related Hantavirus (Hantaan 76-118) S RNA segment indicated that there was 57% nucleotide sequence homology between the two S RNA segments. A higher degree of conservation in amino acid sequence homology (62%) was observed in the N proteins of these viruses. At the N-terminus 147 of 225 amino acids are homologous, while approximately 82% of the 124 amino acids at the C-terminus are homologous between the two N proteins. The longest stretch of homologous amino acid sequence is found in this region, and is 17 amino acids in length. Also, many of the differences in amino acid sequence between the two N proteins resulted from conservative substitutions. Hydropathy plots of the two N proteins also reveal many similarities including a conserved potential antigenic site. Unlike Hantaan virus, a second smaller overlapping open reading frame was observed in the viral complementary-sense RNA of PHV and could potentially encode a 90 amino acid (10.5K) protein. Our data indicate that the N proteins of PHV and Hantaan virus are closely related despite divergence in the nucleotide sequence of their S RNA segments.

Life stresses of the free black community as represented by the First African Baptist Church, Philadelphia, 1823-1841.

The congregation of the Reverend Henry Simmons (First African Baptist Church at 8th & Vine, Philadelphia) from 1823 to 1841 used a cemetery rediscovered through subway expansion which was carefully excavated by M. Parrington and S. Pinter in 1983-1984; currently 75 adults were available for study. As an overall health indicator, longevity at 38.9 years (N = 39) female and 44.8 (N = 36) male indicates more stress on females. Probable causes of stress are inadequate nutrition for the performance of arduous labor, pregnancy, and childrearing, unsanitary living conditions, limited exposure to sun, and extensive exposure to infectious diseases. Nutritional indicators of stature, dental lesions, skull base height, and pelvic brim index scarcely advance over 1790-1820 Catoctin Furnace, Maryland, slaves' indicators. Disease evidence includes limb-distorting rickets in one child who died at age 8, anemia, and arthritis; but the incidence of arthritis was less than at Catoctin. Genetic traits are chiefly African. Family links show in details: os acromiale in about 30%. This plus less violence (fewer fractures) suggests community strength developing.